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Control of port-Hamiltonian systems with minimal energy supply
Publikationstyp
Journal Article
Date Issued
2021-11-01
Sprache
English
Journal
Volume
62
Start Page
33
End Page
40
Citation
European Journal of Control 62: 33-40 (2021-11)
Publisher DOI
Scopus ID
Publisher
Elsevier
We investigate optimal control of linear port-Hamiltonian systems with control constraints, in which one aims to perform a state transition with minimal energy supply. Decomposing the state space into dissipative and non-dissipative (i.e. conservative) subspaces, we show that the set of reachable states is bounded w.r.t. the dissipative subspace. We prove that the optimal control problem exhibits the turnpike property with respect to the non-dissipative subspace, i.e., for varying initial conditions and time horizons optimal state trajectories evolve close to the conservative subspace most of the time. We analyze the corresponding steady-state optimization problem and prove that all optimal steady states lie in the non-dissipative subspace. We conclude this paper by illustrating these results by a numerical example from mechanics.
Subjects
Dissipativity
Minimal energy supply
Optimal control
Port-Hamiltonian systems
Turnpike property
DDC Class
530: Physics